Delphi IDE package load error on %1 is not a valid Win32 application

Question

Using RAD Studio 10.2.3, I have suddenly started getting and error when loading 5 of the FireDAC-related packages at IDE startup, and when loading a project:

%1 is not a valid Win32 application

I know that this error means that some package that these failing packages depend on is having the 64-bit version being found before the 32-bit version, and that usually this means that the PATH environment variable has gotten screwed up so that the 64-bit path is before the 32-bit path.

I've made sure that the PATH is set up correctly. I then wrote a program to recursively walk the list of dependencies in a package and each of those sub-dependencies to find and validate those all necessary packages for 32-bit-ness and path, and have confirmed that for each failing package, all dependencies exist on the right paths and are 32-bit. But I still get the errors.

Am I missing something here? Is there a better way to sniff out this kind of error?

Answer 1

Turns out that LoadLibrary() fails in the same way that LoadPackage() does, which was hiding the error from me in my search program. The solution to that problem is to read the imports list directly from the file rather than using LoadLibrary() and GetPackageInfo(). Doing this required me to get a lot more familiar with the PE file structure than I was before. Here's code to get the imports list from a BPL directly rather than through LoadLibrary():

uses
  WinApi.Windows,
  System.Classes,
  System.SysUtils;

const
  MinModuleSize = SizeOf(TImageDOSHeader) + 
                  SizeOf(UInt32) + 
                  SizeOf(TImageFileHeader);

function GetPEImportsList(const FN: String; SL: TStringList): Boolean;
var
  F:      TFileStream;
  I:      UInt32;
  W:      Word;
  Is32:   Boolean;
  RVAOfs: Cardinal;
  S:      AnsiString;
  CA:     Array[0..7] of AnsiChar;   //used to get the section name
  NA:     Array[0..127] of AnsiChar; //arbitrarily long BPL name buffer
  Buff:   TBytes;
  //all of these structure types are declared in WinApi.Windows
  DHdr:   TImageDOSHeader;
  COFF:   TImageFileHeader;
  Op32:   TImageOptionalHeader32;
  Op64:   TImageOptionalHeader64;
  ISec:   TImageSectionHeader;
  IDes:   TImageImportDescriptor;
begin
  //assume failure
  Result := False;
  Assert(Assigned(SL), 'StringList not assigned');
  SL.Clear;
  //if the file doesn't even exist, bail
  if not FileExists(FN) then
    Exit;
  //open the file
  F := TFileStream.Create(FN, fmOpenRead or fmShareCompat);
  try
    //make sure we have a big enough file
    if F.Size < MinModuleSize then
      Exit;
    //start at the beginning
    F.Seek(0, 0);
    //read DOS header
    F.Read(DHdr, SizeOf(DHdr));
    //is it valid?
    if DHdr.e_magic <> IMAGE_DOS_SIGNATURE then
      Exit;

    //seek to offset of PE signature
    F.Seek(DHdr._lfanew, 0);
    //read PE signature DWORD
    F.Read(I, SizeOf(I));
    //is it valid?
    if I <> IMAGE_NT_SIGNATURE then
      Exit;

    //read the COFF image file header and get bitness
    F.Read(COFF, SizeOf(COFF));
    Is32 := COFF.Machine = IMAGE_FILE_MACHINE_I386;

    //does an optional header exist?  If not, it's not a valid file
    if COFF.SizeOfOptionalHeader = 0 then
      Exit;

    //read the "optional" (it's not) header as appropriate for
    //32- or 64-bit modules, and verify the magic number.  We
    //don't do anything with this header here beyond the verify,
    //we're mostly just reading it to get past it.
    if Is32 then begin
      F.Read(Op32, SizeOf(Op32));
      if Op32.Magic <> $10B then  //whoops, not really a 32-bit image
        Exit;
    end
    else begin
      F.Read(Op64, SizeOf(Op64));
      if Op64.Magic <> $20B then  //whoops, not really a 64-bit image
        Exit;
    end;

    //Following the optional header is a set of section headers.  The
    //names of the required BPLs are linked via records in the Imports
    //(.idata) section.  So we start by finding the imports section by
    //walking the section headers.  On most BPLs this will be in header
    //#5, but we do the walk for safety in case it changes in the future.
    W := 0;
    repeat
      Inc(W);
      F.Read(ISec, SizeOf(ISec));
      Move(ISec.Name[0], CA[0], 8);  //done for type safety
    until (StrPas(CA) = '.idata') or (W >= 8);
    if StrPas(CA) <> '.idata' then
      Exit;

    //Many addresses in PE structs are RVAs (Relative Virtual Addresses,
    //the address once loaded into memory) rather than Raw addresses
    //(physical offset in the file.)  The RVA will always be greater than
    //the Raw address, so to get the Raw address for an RVA address, we
    //must subtract the difference between the ISec.VirtualAddress and
    //ISec.PointerToRawData values from any RVA address in the structs.
    RVAOfs := ISec.VirtualAddress - ISec.PointerToRawData;

    //Find and read all the data in the imports table into a buffer.  We
    //do this because we must seek around in the file to get the actual
    //text-string name of each import.
    SetLength(Buff, ISec.SizeOfRawData);
    FillChar(Buff[0], ISec.SizeOfRawData, 0);
    F.Seek(ISec.PointerToRawData, 0);
    F.Read(Buff, ISec.SizeOfRawData);

    //now walk thru the buffer, getting each import descriptor and
    //using its Name pointer to find the text name of the import in
    //the file
    W := 0;
    while W < ISec.SizeOfRawData do begin
      //load the Image Import Descriptor struct from the buffer
      Move(Buff[w], IDes, SizeOf(IDes));
      //IIDes.Name is an RVA.  If it's zero, we're done
      if IDes.Name = 0 then
        Break;
      //seek in the file to the correct spot and read the name
      F.Seek(IDes.Name - RVAOfs, 0);
      FillChar(NA[0], SizeOf(NA), 0);
      F.Read(NA[0], SizeOf(NA));
      //if it's the name of a BPL, add it to our stringlist
      S := StrPas(NA);
      if (S <> '') and (Lowercase(ExtractFileExt(S)) = '.bpl') then
        SL.Add(S);
      //move to the next record
      Inc(W, SizeOf(IDes));
    end;

    //we're done, return success
    Result := True;
  finally
    F.Free;
  end;
end;